JP4224115B2 - Regiospecific synthesis of rapamycin 42-ester derivatives - Google Patents
Regiospecific synthesis of rapamycin 42-ester derivatives Download PDFInfo
- Publication number
- JP4224115B2 JP4224115B2 JP2007508442A JP2007508442A JP4224115B2 JP 4224115 B2 JP4224115 B2 JP 4224115B2 JP 2007508442 A JP2007508442 A JP 2007508442A JP 2007508442 A JP2007508442 A JP 2007508442A JP 4224115 B2 JP4224115 B2 JP 4224115B2
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- Prior art keywords
- vinyl
- ester
- rapamycin
- group
- lipase
- Prior art date
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- A61K31/395—Heterocyclic compounds having nitrogen as a ring hetero atom, e.g. guanethidine or rifamycins
- A61K31/435—Heterocyclic compounds having nitrogen as a ring hetero atom, e.g. guanethidine or rifamycins having six-membered rings with one nitrogen as the only ring hetero atom
- A61K31/4353—Heterocyclic compounds having nitrogen as a ring hetero atom, e.g. guanethidine or rifamycins having six-membered rings with one nitrogen as the only ring hetero atom ortho- or peri-condensed with heterocyclic ring systems
- A61K31/436—Heterocyclic compounds having nitrogen as a ring hetero atom, e.g. guanethidine or rifamycins having six-membered rings with one nitrogen as the only ring hetero atom ortho- or peri-condensed with heterocyclic ring systems the heterocyclic ring system containing a six-membered ring having oxygen as a ring hetero atom, e.g. rapamycin
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Description
ラパマイシン(Rapamune(登録商標))は、新規作用メカニズムを有する、天然由来の免疫抑制剤である。CCI−779(3−ヒドロキシ−2−(ヒドロキシメチル)−2−メチルプロピオン酸とのラパマイシン42−エステル)は、インビトロモデルにおいても、インビボモデルにおいても腫瘍成長に有意な阻害効果を実証したラパマイシンのエステルである。 Rapamycin (Rapamune®) is a naturally occurring immunosuppressive agent with a novel mechanism of action. CCI-779 (Rapamycin 42-ester with 3-hydroxy-2- (hydroxymethyl) -2-methylpropionic acid) demonstrated a significant inhibitory effect on tumor growth in both in vitro and in vivo models. Ester.
ラパマイシンの変性は、主としてその42−ヒドロキシエステル誘導体の製造に集中している。これらの42−ヒドロキシラパマイシンエステル誘導体は、免疫抑制の誘導に、ならびに移植拒絶反応、自己免疫疾患、炎症疾患、成人T細胞白血病/リンパ腫、固形腫瘍、真菌感染およびその他の治療に有用である。 The modification of rapamycin is mainly focused on the production of its 42-hydroxy ester derivative. These 42-hydroxyrapamycin ester derivatives are useful for induction of immunosuppression and for the treatment of transplant rejection, autoimmune diseases, inflammatory diseases, adult T cell leukemia / lymphoma, solid tumors, fungal infections and other.
42位でのラパマイシンのエステル化は、ラパマイシンをアシル化剤と直接反応させることによって行われている。しかし、ラパマイシンは、31位および42位に2つの第二ヒドロキシル基を有するので、42−モノアシル化生成物の位置選択的合成を達成するためにこれら2つのヒドロキシル基を区別する試みは、難題を呈した。 Esterification of rapamycin at position 42 is carried out by reacting rapamycin directly with an acylating agent. However, because rapamycin has two secondary hydroxyl groups at positions 31 and 42, attempts to distinguish these two hydroxyl groups to achieve regioselective synthesis of the 42-monoacylated product are challenging. Presented.
アルキルエステル(米国特許第4,316,885号)、アミノアルキルエステル(米国特許第4,650,803号)、フッ素化エステル(米国特許第5,100,883号)、アミドエステル(米国特許第5,118,667号)、カルバミン酸エステル(米国特許第5,118,678号)、アルコキシエステル(米国特許第5,233,036号)、炭酸エステル(米国特許第5,260,300号)、ヒドロキシエステル(米国特許第5,362,718号 &同第6,277,983号)などの、42−アシル化誘導体の合成を含む多数の特許が発行されている。しかし、立体特異的である方法を記載している特許はない。さらに、これらの方法によって製造されるラパマイシンの42−モノエステルの収率は、その劣った位置選択性および塩基性または酸性条件でのラパマイシン分子の不安定さのため、一般には不良から中程度である。純粋な生成物を得るために、通常は高速液体クロマトグラフィー(HPLC)分離が必要とされる。位置選択性を改善するために提案された1つの解決法は、中間体として31−シリル保護ラパマイシンを使用することである。しかし、この方法は、さらに幾つかの操作段階を追加する。 Alkyl esters (US Pat. No. 4,316,885), aminoalkyl esters (US Pat. No. 4,650,803), fluorinated esters (US Pat. No. 5,100,883), amide esters (US Pat. 5,118,667), carbamate (US Pat. No. 5,118,678), alkoxy ester (US Pat. No. 5,233,036), carbonate (US Pat. No. 5,260,300) Numerous patents have been issued involving the synthesis of 42-acylated derivatives, such as hydroxy esters (US Pat. Nos. 5,362,718 & 6,277,983). However, no patent describes a method that is stereospecific. Furthermore, the yield of 42-monoester of rapamycin produced by these methods is generally poor to moderate due to its poor regioselectivity and instability of the rapamycin molecule in basic or acidic conditions. is there. In order to obtain a pure product, high performance liquid chromatography (HPLC) separation is usually required. One solution that has been proposed to improve regioselectivity is to use 31-silyl protected rapamycin as an intermediate. However, this method adds several more operational steps.
必要とされているのは、ラパマイシンエステルの効率的な合成方法である。 What is needed is an efficient method for the synthesis of rapamycin esters.
本発明は、ラパマイシン42−エステル誘導体のリパーゼ触媒合成を提供する。この単純なプロセスの注目すべき特徴は、位置特性および温和な条件下での卓越した収率である。 The present invention provides lipase-catalyzed synthesis of rapamycin 42-ester derivatives. The notable features of this simple process are the positional characteristics and the excellent yield under mild conditions.
本発明の他の態様および利点は、当業者には容易に明らかとなろう。 Other aspects and advantages of the invention will be readily apparent to those skilled in the art.
本発明は、ラパマイシンおよびアシル供与体の存在下でリパーゼを使用することにより一般式(I)のラパマイシン42−エステルを位置特異的な様式で調製するプロセスを提供する。
ラパマイシンは、以前に記載されているように調製することができる。例えば、1975年12月30日発行の米国特許第3,929,992号参照。あるいは、ラパマイシンは、市場の供給業者から購入してもよいし[Rapamune(登録商標)、Wyeth]、または代替法を用いて調製してもよい。ラパマイシン出発原料を調製、精製および/または得る手段は、本発明を制限する事項ではない。 Rapamycin can be prepared as previously described. See, for example, US Pat. No. 3,929,992 issued Dec. 30, 1975. Alternatively, rapamycin may be purchased from commercial suppliers [Rapamune®, Wyeth], or prepared using alternative methods. The means by which the rapamycin starting material is prepared, purified and / or obtained is not a limitation of the present invention.
1つの実施形態において、本発明は、ラパマイシン42−エステルを製造する際に有用な、ケタール保護ラパマイシン42−エステルの位置特異的製造経路を提供する。1つの実施形態において、本発明は、CCI−779の前駆体である、3−ヒドロキシ−2−(ヒドロキシメチル)−2−メチルプロピオン酸とのイソプロピリデンケタール保護ラパマイシン42−エステルの製造を提供する(実施例7)。CCI−779は、インビトロモデルにおいても、インビボモデルにおいても、腫瘍成長に対して有意な阻害効果を実証したラパマイシンのエステルである。ラパマイシンのこのヒドロキシエステルおよび他のヒドロキシエステルの使用は、米国特許第5,362,718号および同第6,277,983号、ならびに米国特許公開第2005−0033046号A1(米国特許出願番号10/903,062)に記載されている。 In one embodiment, the present invention provides a regiospecific production route for ketal protected rapamycin 42-esters useful in producing rapamycin 42-esters. In one embodiment, the present invention provides the preparation of isopropylidene ketal protected rapamycin 42-ester with 3-hydroxy-2- (hydroxymethyl) -2-methylpropionic acid, a precursor of CCI-779. (Example 7). CCI-779 is an ester of rapamycin that has demonstrated a significant inhibitory effect on tumor growth in both in vitro and in vivo models. The use of this and other hydroxy esters of rapamycin is described in US Pat. Nos. 5,362,718 and 6,277,983, and US Patent Publication No. 2005-0033046 A1 (US Patent Application No. 10 / 903,062).
ケタール保護基の除去は、穏やかな酸性条件下で達成することができる。一般に、米国特許第6,277,983号およびそこに引用されている文献に掲載されている手順に従うことができる。1つの実施形態において、脱保護は、単層酸性水溶液/有機溶媒系、例えば、テトラヒドロフラン(THF)中の希硫酸、例えば約0から5℃で2N H2SO4/THF中で行われる。しかし、この反応は、完了に約3日またはそれ以上かかり、反応完了後に水性媒体から生成物を回収するために溶媒抽出を必要とする。ケタール保護基の他の除去手順、例えば、Proline CCI-779, Production and Uses Therefor, and Two Step Enzymatic Synthesis of Proline CCI-779 and CCI-779 (Chewら、米国特許仮出願番号60/562,069(2004年4月14日出願)および同60/623,594(2004年10月29日出願)に基づくもの)と題する国際特許出願に記載されているものは、当業者には公知であろう。 Removal of the ketal protecting group can be achieved under mildly acidic conditions. In general, procedures published in US Pat. No. 6,277,983 and references cited therein may be followed. In one embodiment, the deprotection is performed in a single-layer acidic aqueous / organic solvent system, such as dilute sulfuric acid in tetrahydrofuran (THF), such as 2N H 2 SO 4 / THF at about 0-5 ° C. However, this reaction takes about 3 days or more to complete and requires solvent extraction to recover the product from the aqueous medium after the reaction is complete. Other removal procedures for ketal protecting groups such as Proline CCI-779, Production and Uses Therefor, and Two Step Enzymatic Synthesis of Proline CCI-779 and CCI-779 (Chew et al., US Provisional Application No. 60 / 562,069 ( Those skilled in the art will know what is described in the international patent application entitled April 14, 2004) and 60 / 623,594 (filed October 29, 2004).
本明細書で用いる場合、「細菌リパーゼ」は、非真核生物源、例えば、中でもアスペルギルス・ニガー(Aspergillus niger)、カンジダ・アンタルクチカ(Candida antarctica)、カンジダ・ルゴサ(Candida rugosa)、ムコール・ミーヘイ(Mucor miehei)、シュードモナス・セパシア(Pseudomonas cepacia)、シュードモナス・フルオレッセンス(Pseudomonas fluorescens)、リゾープス・デレマ(Rhizopus delemar)から元来単離された、加水分解およびエステル結合の形成を触媒する酵素を包含する。しかし、本発明で使用するために選択される酵素は、元来の供給源から直接単離および精製されたものである必要はなく、合成もしくは組換えで、または他の適する手段により作製されたものであってもよい。幾つかの市場の供給業者から様々なこれらの酵素を入手することができ、さらに、これらの酵素の製剤は、様々な供給業者による異なる商品名での異なる細菌起源の粗製、不完全精製、精製または固定化された状態で、使用することができる。 As used herein, a “bacterial lipase” is a non-eukaryotic source such as, among others, Aspergillus niger, Candida antarctica, Candida rugosa, Mucor Mihay ( Includes enzymes originally catalyzed from Mucor miehei, Pseudomonas cepacia, Pseudomonas fluorescens, and Rhizopus delemar that catalyze hydrolysis and ester bond formation . However, the enzyme selected for use in the present invention need not be isolated and purified directly from the original source, but has been made synthetically or recombinantly or by other suitable means. It may be a thing. A variety of these enzymes are available from several market suppliers, and the formulations of these enzymes are crude, incompletely purified, purified of different bacterial origin under different trade names by various suppliers Or it can be used in an immobilized state.
B型カンジダ・アンタルクチカ(Candida antarctica, type B)からのリパーゼは、本発明の実施の際、いっそう特に適することが分かる。今日まで研究したすべてのリパーゼのうち、これが最も高い転化率および最も高い単離収率をもたらす。C.アンタルクチカリパーゼは、例えば、Novo Nordiskから製品名 NOVO SP435もしくはNOVOZYME 435で、またはRoche Molecular Biochemicals and BioCatalyticsから製品名CHIRAZYME L−2で市販されている。 It has been found that lipases from C-type Candida antarctica, type B are more particularly suitable in the practice of the present invention. Of all the lipases studied to date, this results in the highest conversion and the highest isolated yield. C. Antarctica lipase is commercially available, for example, from Novo Nordisk under the product name NOVO SP435 or NOVOZYME 435, or from Roche Molecular Biochemicals and BioCatalytics under the product name CHIRAZYME L-2.
シュードモナス・セパシアからのリパーゼPS、特にその固定化形態である、リパーゼPS−C[例えば、Amano(天野エンザイム株式会社)から「Amano」IIリパーゼとして入手することができる]は、反応速度はNOVOZYM 435リパーゼより遅いが、合成の見地からそれと同じ程度に良好に反応を遂行することができる。本発明のプロセスのために、細菌(例えば、C.アンタルクチカ(B型)リパーゼは、アシル供与体とラパマイシンとの間の反応を触媒するために適する溶媒と併せる。当業者は、例えば、トルエン、t−ブチルメチルエーテル(TBME)、エチルエーテル、THF、MeCN、CH2Cl2、CHCl3、ヘキサン、ジオキサンまたはこれらの溶媒を含む混合物の中から適する溶媒を容易に選択することができる。1つの実施形態では、TBME(t−ブチルメチルエーテル)が使用される。本発明の方法において利用されるアシル供与体は、幾つかの活性化エステル、例えばビニルエステル、イソプロペニルエステルおよび無水物の中から選択される。 Lipase PS from Pseudomonas cepacia, especially its immobilized form, lipase PS-C [e.g. available as "Amano" II lipase from Amano (Amano Enzyme Co., Ltd.)] has a reaction rate of NOVOZYM 435 Although slower than lipase, it can perform as well as the reaction from a synthetic point of view. For the process of the present invention, a bacterial (eg C. antarctica (type B) lipase is combined with a suitable solvent to catalyze the reaction between the acyl donor and rapamycin. A suitable solvent can be easily selected from t-butyl methyl ether (TBME), ethyl ether, THF, MeCN, CH 2 Cl 2 , CHCl 3 , hexane, dioxane or a mixture containing these solvents. In an embodiment, TBME (t-butyl methyl ether) is used.Acyl donors utilized in the process of the present invention are among several activated esters such as vinyl esters, isopropenyl esters and anhydrides. Selected.
1つの実施形態において、前記ビニルエステルは、式CH2=CH−O−COR1(式中、R1は、非置換であるか、ヒドロキシル、ハロゲン(F、Cl、Br、I)およびチオで置換されている、アルキル、アルケニル、アリール、ベンジルである)のエステルの中から選択される。適するビニルエステルとしては、ビニルアセテート、ビニルプロピオネート、ビニルクロロアセテート、ビニルクロトネート、ビニルベンゾエート、およびビニルデカノエートが挙げられる。しかし、当業者は、他の適するビニルエステルを容易に選択することができる。 In one embodiment, the vinyl ester has the formula CH 2 ═CH—O—COR 1 , wherein R 1 is unsubstituted or in hydroxyl, halogen (F, Cl, Br, I) and thio. Selected from esters of alkyl, alkenyl, aryl, benzyl, which are substituted. Suitable vinyl esters include vinyl acetate, vinyl propionate, vinyl chloroacetate, vinyl crotonate, vinyl benzoate, and vinyl decanoate. However, one skilled in the art can readily select other suitable vinyl esters.
1つの実施形態において、イソプロペニルエステルは、式CH2=C(CH3)−OCOR2(式中、R2は、非置換であるか、ヒドロキシル、ハロゲン(F、Cl、Br、I)およびチオで置換されている、アルキル、アルケニル、アリール、ベンジルである)のエステルの中から選択される。もう1つの実施形態において、前記アシル供与体は、イソプロペニルアセテートである。 In one embodiment, the isopropenyl ester has the formula CH 2 ═C (CH 3 ) —OCOR 2 , wherein R 2 is unsubstituted or hydroxyl, halogen (F, Cl, Br, I) and Selected from esters of alkyl, alkenyl, aryl, benzyl, substituted with thio. In another embodiment, the acyl donor is isopropenyl acetate.
用語「アルキル」は、1から10個の炭素原子、好ましくは1から8個の炭素原子、最も好ましくは1から6個の炭素原子を有する、直鎖と分枝鎖両方の飽和脂肪族炭化水素基を指すために本明細書では用いる。 The term “alkyl” refers to both straight and branched chain saturated aliphatic hydrocarbons having 1 to 10 carbon atoms, preferably 1 to 8 carbon atoms, and most preferably 1 to 6 carbon atoms. Used herein to refer to a group.
用語「アルケニル」は、少なくとも1つの炭素−炭素二重結合および2から8個の炭素原子、好ましくは2から6個の炭素原子を有する、直鎖と分枝鎖両方のアルキル基を包含すると解釈する。 The term “alkenyl” is understood to include both straight and branched chain alkyl groups having at least one carbon-carbon double bond and 2 to 8 carbon atoms, preferably 2 to 6 carbon atoms. To do.
用語「アリール」は、炭素環式芳香族環構造を指すために本明細書では用い、これは、単一の環であってもよいし、または縮合もしくは連結している環の少なくとも一部が例えば炭素原子数6〜14の共役芳香族環構造を形成するように互いに縮合もしくは連結している多数の芳香族環であってもよい。アリール基としては、フェニル、ナフチル、ビフェニル、アントリル、テトラヒドロナフチル、フェナントリルおよびインダンが挙げられるが、これらに限定されない。 The term “aryl” is used herein to refer to a carbocyclic aromatic ring structure, which may be a single ring, or at least a portion of the fused or linked rings. For example, it may be a large number of aromatic rings condensed or linked to each other so as to form a conjugated aromatic ring structure having 6 to 14 carbon atoms. Aryl groups include, but are not limited to, phenyl, naphthyl, biphenyl, anthryl, tetrahydronaphthyl, phenanthryl and indane.
用語「ベンジル」は、式C5H5CH2の基を指すために本明細書では用いる。 The term “benzyl” is used herein to refer to a group of formula C 5 H 5 CH 2 .
適する無水物は、アルカン酸無水物(すなわち、C1、C2、C3、C4、C5、C6、C7およびC8無水物)の中から容易に選択され、これらは、分枝鎖であってもよいし、直鎖であってもよく、またはハロゲン、ヒドロキシルで置換されていてもよい。 Suitable anhydrides are readily selected from among the alkanoic anhydrides (ie C 1 , C 2 , C 3 , C 4 , C 5 , C 6 , C 7 and C 8 anhydrides), It may be branched or linear, or may be substituted with halogen or hydroxyl.
1つの実施形態において、本発明の酵素的プロセスは、約20℃から約75℃、または約25℃、27℃、30℃、40℃から約70℃、または約32℃もしくは約37℃から約65℃の範囲内で行うことができる。もう1つの実施形態において、この温度は、約30℃から約55℃である。さらにもう1つの実施形態において、この温度は、ほぼ室温から約45℃である。一般に、この反応は、すべての出発原料が消費されるまでN2下で行われる。この反応は、様々な技法、例えば薄層クロマトグラフィー(TLC)および高速液体クロマトグラフィー(HPLC)によってモニターすることができる。あるいは、当業者は他のモニター法を用いることができる。 In one embodiment, the enzymatic process of the present invention is performed at about 20 ° C to about 75 ° C, or about 25 ° C, 27 ° C, 30 ° C, 40 ° C to about 70 ° C, or about 32 ° C or about 37 ° C to about 37 ° C. It can be performed within a range of 65 ° C. In another embodiment, the temperature is from about 30 ° C to about 55 ° C. In yet another embodiment, the temperature is from about room temperature to about 45 ° C. In general, this reaction is carried out under N 2 until all starting material is consumed. This reaction can be monitored by various techniques such as thin layer chromatography (TLC) and high performance liquid chromatography (HPLC). Alternatively, other monitoring methods can be used by those skilled in the art.
ビニルエステルまたはイソプロペニルエステルをアシル供与体として利用する反応では、酵素(リパーゼ)は、ろ過して除去し、適する溶媒で洗浄される。この溶媒は、その反応において使用するために選択されたものと同じであってもよいし、または反応における溶媒と異なってもよい。溶媒が異なる場合、それは、上で定義した溶媒、または他の一般に使用されている溶媒、例えば数ある中でもアセトン、酢酸エチル、メタノール、エタノール、イソプロパノール、の中から選択することができる。その後、併せた有機溶媒を、適する条件下、例えば減圧下で蒸発除去することができる。その後、残留物を、適する手段により、例えば、適する溶媒で溶離するシリカゲルカラムクロマトグラフィーにより精製するか、適する溶媒(例えば、数ある中でもヘキサン−アセトン、ヘキサン−酢酸エチル、エチルエーテル)で再結晶させる。他の適する精製手段は、当業者には公知である。さらに、当業者は、他の適する溶媒混合物および比率を容易に決定することができる。 In reactions utilizing vinyl esters or isopropenyl esters as acyl donors, the enzyme (lipase) is removed by filtration and washed with a suitable solvent. This solvent may be the same as that selected for use in the reaction or may be different from the solvent in the reaction. If the solvent is different, it can be selected from among the solvents defined above or other commonly used solvents such as acetone, ethyl acetate, methanol, ethanol, isopropanol, among others. The combined organic solvents can then be removed by evaporation under suitable conditions, for example under reduced pressure. The residue is then purified by suitable means, for example by silica gel column chromatography eluting with a suitable solvent, or recrystallized with a suitable solvent (for example, hexane-acetone, hexane-ethyl acetate, ethyl ether, among others). . Other suitable purification means are known to those skilled in the art. In addition, one of ordinary skill in the art can readily determine other suitable solvent mixtures and ratios.
もう1つの実施形態では、42−エステル誘導体の酵素触媒調製の際に無水物がアシル供与体として使用される。収率は通常高く、約95%である。(実施例9〜11)。こうした実施形態では、無水物および適量の酵素を適する溶媒中でラパマイシンと混合し、光から保護されたN2の存在下で、約16から96時間、さらに好ましくは約24時間から48時間攪拌する。好適には、この反応は、ほぼ室温から約50℃で行われる。酵素のラパマイシンに対する量(w/w)は、無水物の種類および反応の長さに基づき、例えば、ラパマイシンと酵素が(重量ベースで)ほぼ当量(w/w)から、反応をより迅速に行わせるために酵素過剰量まで、変化し得る。場合によっては、反応が、上で述べたのように一定時間たっても完了しなければ、追加の酵素を添加してもよいし、TLCまたはHPLCによって判定して反応が完了するまで、さらなる時間にわたってその混合物を攪拌してもよい。酵素を濾過により除去した後、溶媒を減圧下で除去する。残留物は、適する技法を使用して、例えばシリカゲルカラムクロマトグラフィーまたは再結晶により精製する。 In another embodiment, anhydrides are used as acyl donors in the enzyme-catalyzed preparation of 42-ester derivatives. The yield is usually high, about 95%. (Examples 9 to 11). In such embodiments, mixed with rapamycin anhydride and a suitable a suitable amount of enzyme in a solvent in the presence of N 2 was protected from light, 96 hours to about 16, more preferably 48 hours stirring about 24 hours . Preferably, the reaction is performed at about room temperature to about 50 ° C. The amount of enzyme relative to rapamycin (w / w) is based on the type of anhydride and the length of the reaction, for example, rapamycin and the enzyme (on a weight basis) are approximately equivalent (w / w), making the reaction more rapid. Can vary up to enzyme excess. In some cases, if the reaction is not complete after a period of time, as described above, additional enzyme may be added, or over an additional period of time until the reaction is complete as judged by TLC or HPLC. The mixture may be stirred. After removing the enzyme by filtration, the solvent is removed under reduced pressure. The residue is purified using suitable techniques, for example by silica gel column chromatography or recrystallization.
本発明の位置特異的ラパマイシン42−誘導体は、薬学的組成物において有用である。従って、本発明のラパマイシン42−誘導体は、ラパマイシンまたはその誘導体について当該技術分野で説明されている任意の適する方法によって配合することができる。 The regiospecific rapamycin 42-derivatives of the present invention are useful in pharmaceutical compositions. Accordingly, the rapamycin 42-derivatives of the present invention can be formulated by any suitable method described in the art for rapamycin or a derivative thereof.
本発明の活性化合物を含有する経口配合薬は、錠剤、カプセル、バッカル形、トローチ、ロゼンジおよび経口液、懸濁液または溶液をはじめとする、従来から使用されているあらゆる経口形態を包含し得る。カプセルは、本活性化合物(複数を含む)と不活性充填剤および/または希釈液、例えば薬学的に許容されるデンプン(例えば、トウモロコシ、馬鈴薯もしくはタピオカデンプン)、糖、人口甘味料、粉末セルロース(例えば、結晶性および微結晶性セルロース)、小麦粉、ゼラチン、ゴムなど、との混合物を含有し得る。有用な錠剤型配合薬は、従来どおりの圧縮、湿式造粒または乾式造粒法によって製造することができ、ステアリン酸マグネシウム、ステアリン酸、タルク、ラウリル硫酸ナトリウム、微結晶性セルロース、カルボキシメチルセルロースカルシウム、ポリビニルピロリドン、ゼラチン、アルギン酸、アカシアゴム、キサンタンガム、クエン酸ナトリウム、複合ケイ酸塩、炭酸カルシウム、グリシン、デキストリン、スクロース、ソルビトール、リン酸二カルシウム、硫酸カルシウム、ラクトース、カオリン、マンニトール、塩化ナトリウム、タルク、乾燥デンプンおよび粉末糖をはじめとする(しかし、これらに限定されない)、薬学的に許容される希釈液、結合剤、滑沢剤、崩壊剤、界面改質剤(界面活性剤を含む)、懸濁化剤または安定剤を利用することができる。好ましい界面改質剤としては、非イオン性およびアニオン性界面改質剤が挙げられる。界面改質剤の代表例としては、ポロキサマー188、塩化ベンズアルコニウム、ステアリン酸カルシウム、セトステアリルアルコール、セトマクロゴール乳化蝋、ソルビタンエステル、コロイド状二酸化ケイ素、リン酸塩、ドデシル硫酸ナトリウム、ケイ酸アルミニウムマグネシウム、およびトリエタノールアミンが挙げられるが、これらに限定されない。本明細書における経口配合薬は、活性化合物(複数を含む)の吸収を変化させるために、標準的な遅延または持効性配合を利用することができる。この経口配合は、必要に応じて適切な可溶化剤または乳化剤を含有する、水またはフルーツジュース中の活性成分の投与からも成り得る。 Oral formulations containing the active compounds of the present invention may include any conventionally used oral forms including tablets, capsules, buccal forms, troches, lozenges and oral liquids, suspensions or solutions. . Capsules may contain active compound (s) and inert fillers and / or diluents such as pharmaceutically acceptable starches (eg, corn, potato or tapioca starch), sugars, artificial sweeteners, powdered cellulose ( For example, it may contain a mixture with crystalline and microcrystalline cellulose), flour, gelatin, gum and the like. Useful tablet formulations can be prepared by conventional compression, wet granulation or dry granulation methods, magnesium stearate, stearic acid, talc, sodium lauryl sulfate, microcrystalline cellulose, carboxymethylcellulose calcium, Polyvinylpyrrolidone, gelatin, alginic acid, acacia gum, xanthan gum, sodium citrate, complex silicate, calcium carbonate, glycine, dextrin, sucrose, sorbitol, dicalcium phosphate, calcium sulfate, lactose, kaolin, mannitol, sodium chloride, talc Pharmaceutically acceptable diluents, binders, lubricants, disintegrants, surface modifiers (including surfactants), including but not limited to dry starch and powdered sugar, Suspending or stabilizing agent It can be used. Preferred interfacial modifiers include nonionic and anionic interfacial modifiers. Representative examples of the interfacial modifier include poloxamer 188, benzalkonium chloride, calcium stearate, cetostearyl alcohol, cetomacrogol emulsified wax, sorbitan ester, colloidal silicon dioxide, phosphate, sodium dodecyl sulfate, aluminum silicate Examples include, but are not limited to magnesium, and triethanolamine. Oral formulations herein can utilize standard delayed or sustained release formulations to alter the absorption of the active compound (s). This oral formulation may also consist of administering the active ingredient in water or fruit juice, containing appropriate solubilizers or emulsifiers as needed.
1つの実施形態において、3−ヒドロキシ−2−(ヒドロキシメチル)−2−メチルプロピオン酸とのラパマイシン42−エステルのための経口配合薬は、米国特許公開第2004−0077677号A1に(米国特許出願10/663,506も)記載されている。こうした経口配合薬は、湿式造粒プロセスを使用して調製された顆粒を含有する。 In one embodiment, an oral formulation for rapamycin 42-ester with 3-hydroxy-2- (hydroxymethyl) -2-methylpropionic acid is disclosed in US Patent Publication No. 2004-0077677 A1 (US Patent Application). 10/663, 506). Such oral formulations contain granules prepared using a wet granulation process.
場合によっては、本化合物をエーロゾルの形態で気道に直接投与することが望ましいこともある。 In some cases it may be desirable to administer the compound directly to the respiratory tract in the form of an aerosol.
本化合物は、非経口または腹腔内投与することもできる。遊離塩基または薬理学的に許容される塩としてのこれらの活性化合物の溶液または懸濁液は、ヒドロキシ−プロピルセルロースなどの界面活性剤と適切に混合された水中で調製することができる。油中のグリセロール、液体ポリエチレングリコールおよびそれらの混合物中での分散液を調製することもできる。通常の保管および使用条件下では、これらの製剤は、微生物の成長を防止するために保存薬を含有する。 The compound can also be administered parenterally or intraperitoneally. Solutions or suspensions of these active compounds as a free base or pharmacologically acceptable salt can be prepared in water suitably mixed with a surfactant such as hydroxy-propylcellulose. Dispersions in glycerol in oil, liquid polyethylene glycols and mixtures thereof can also be prepared. Under normal storage and use conditions, these preparations contain a preservative to prevent the growth of microorganisms.
注射使用に適する剤形としては、滅菌水溶液または分散液、および滅菌注射溶液または分散液の即時調製用の滅菌粉末が挙げられる。すべての場合において、剤形は、無菌でなければならず、および容易に注射可能な程度に流動性でなければならない。製造および保管条件下で安定でなければならず、ならびに細菌および真菌などの微生物の汚染作用から保護されねばならない。担体は、例えば水、エタノール、ポリオール(例えば、グリセロール、プロピレングリコールおよび液体ポリエチレングリコール)、適切なそれらの混合物ならびに植物油などを含む溶媒または分散媒体であり得る。 Dosage forms suitable for injectable use include sterile aqueous solutions or dispersions and sterile powders for the extemporaneous preparation of sterile injectable solutions or dispersions. In all cases, the form must be sterile and must be fluid to the extent that easy syringability exists. It must be stable under the conditions of manufacture and storage and must be preserved against the contaminating action of microorganisms such as bacteria and fungi. The carrier can be a solvent or dispersion medium containing, for example, water, ethanol, polyol (eg, glycerol, propylene glycol and liquid polyethylene glycol), suitable mixtures thereof, and vegetable oils.
1つの実施形態において、3−ヒドロキシ−2−(ヒドロキシメチル)−2−メチルプロピオン酸とのラパマイシン42−エステルの注射用配合薬は、米国特許公開第2004−0167152号A1に(米国特許出願番号10/626,943も)記載されている。 In one embodiment, an injectable combination of rapamycin 42-ester with 3-hydroxy-2- (hydroxymethyl) -2-methylpropionic acid is disclosed in US Patent Publication No. 2004-0167152 A1 (US Patent Application No. 10 / 626,943).
本発明において有用な非経口配合薬は、直接注射による投与、または静脈内注入用の滅菌輸液への添加による投与に適する剤形を製造するために使用することができる。 Parenteral formulations useful in the present invention can be used to produce dosage forms suitable for administration by direct injection or administration by addition to a sterile infusion for intravenous infusion.
経皮投与は、上皮および粘膜組織をはじめとする体表をおよび身体の内層を越えて通過するすべての投与を包含すると理解される。こうした投与は、本発明の化合物またはその薬学的に許容される塩を使用して、ローション、クリーム、フォーム、パッチ、懸濁液、溶液および座剤(直腸および膣座剤)で行うことができる。 Transdermal administration is understood to include all administration that passes through the body surface, including epithelial and mucosal tissues, and beyond the inner lining of the body. Such administration can be carried out in lotions, creams, foams, patches, suspensions, solutions and suppositories (rectal and vaginal suppositories) using the compounds of the invention or pharmaceutically acceptable salts thereof. .
経皮投与は、活性化合物と、その活性化合物に対して不活性であり、皮膚に対して非毒性であり、全身吸収用の薬剤を皮膚経由で血流に送達することができる担体とを含有する経皮パッチの使用により達成することができる。担体は、クリーム、軟膏、ペースト、ゲルおよび密封デバイス(occlusive devices)など、任意の数の形態をとることができる。クリームおよび軟膏は、粘稠液であってもよいし、または水中油型もしくは油中水型の半固体乳剤であってもよい。活性成分を含有する石油または親水性石油に分散された吸収性粉末から成るペーストも好適であり得る。血流への活性成分の放出のために、様々な密封デバイス、例えば、担体と共にもしくは伴わずに活性成分を収容しているレザバーを覆う半透膜、または活性成分を含有するマトリックスを使用することができる。他の密封デバイスは文献において公知である。 Transdermal administration contains the active compound and a carrier that is inert to the active compound, non-toxic to the skin, and capable of delivering a systemically absorbed drug to the bloodstream through the skin Can be achieved through the use of transdermal patches. The carrier can take any number of forms such as creams, ointments, pastes, gels, and occlusive devices. Creams and ointments may be viscous liquids or oil-in-water or water-in-oil semisolid emulsions. Pastes consisting of absorbent powder dispersed in petroleum or hydrophilic petroleum containing the active ingredient may also be suitable. For the release of the active ingredient into the bloodstream, various sealing devices are used, for example a semipermeable membrane covering a reservoir containing the active ingredient with or without a carrier, or a matrix containing the active ingredient Can do. Other sealing devices are known in the literature.
座剤配合薬は、座剤の融点を変化させる蝋の添加を伴うまたは伴わないカカオ脂、およびグリセリンをはじめとする、伝統的な材料から製造することができる。水溶性座剤基剤、例えば様々な分子量のポリエチレングリコールも、使用することができる。 Suppository formulations can be made from traditional materials, including cocoa butter, with or without the addition of waxes to alter the suppository's melting point, and glycerin. Water soluble suppository bases such as polyethylene glycols of various molecular weights can also be used.
さらに、本発明は、本発明に従って製造され、適する送達方法による投与のために配合された位置特異的ラパマイシン42−誘導体を収容しているパッケージングおよびキットを提供する。1つの実施形態において、前記位置特異的ラパマイシン42−誘導体は、単位剤形で存在する。ビン、バイアル、ブリスターパックなどをはじめとする様々な適する容器が当業者には公知である。こうしたパッケージングおよびキットは、例えば使用説明書、注射器、アプリケータなどをはじめとする他の構成要素をさらに収容し得る。 Furthermore, the present invention provides packaging and kits containing regiospecific rapamycin 42-derivatives manufactured according to the present invention and formulated for administration by a suitable delivery method. In one embodiment, the regiospecific rapamycin 42-derivative is present in unit dosage form. Various suitable containers are known to those skilled in the art including bottles, vials, blister packs and the like. Such packaging and kits may further contain other components including, for example, instructions for use, syringes, applicators, and the like.
以下の実施例は、ラパマイシン42−エステル誘導体の位置特異的製造のための本発明の方法を例証するものである。以下の実施例において例証されるように、カンジダ・アンタルクチカリパーゼは、特に、ビニルアセテートをアシル供与体として使用することによるラパマイシンのその42−アシル誘導体へのエステル交換を触媒する能力の点でよく適している。しかし、上で述べたように、本発明は、そのように限定されず、細菌起源の他の適するリパーゼを利用することができる。例えば、シュードモナス・セパシアからのリパーゼPSおよびその固定化形である、リパーゼPS−C「Amano」II、Lipase PS−Dの反応条件は、より高い温度とより多くの触媒を含み得る。例えば、固定化リパーゼPS−Cを利用する1つの実施形態では、室温でNovozym 435リパーゼの転化率を達成するために倍の量のリパーゼ(すなわち、ラパマイシンの200%(W/W))を必要とし、あるいは、それより少ない酵素量(ラパマイシンに対して100%(w/w))を使用する場合には、温度を約45℃に上昇させることができる]。 The following examples illustrate the process of the present invention for the regiospecific preparation of rapamycin 42-ester derivatives. As illustrated in the examples below, Candida antarctica lipase is particularly in terms of its ability to catalyze the transesterification of rapamycin to its 42-acyl derivative by using vinyl acetate as an acyl donor. Well suited. However, as noted above, the present invention is not so limited and other suitable lipases of bacterial origin can be utilized. For example, the reaction conditions of lipase PS from Pseudomonas cepacia and its immobilized form, lipase PS-C “Amano” II, Lipase PS-D, may include higher temperatures and more catalyst. For example, in one embodiment utilizing immobilized lipase PS-C, double the amount of lipase (ie, 200% of rapamycin (W / W)) is required to achieve Novozym 435 lipase conversion at room temperature. Or, if a lower amount of enzyme (100% (w / w) relative to rapamycin) is used, the temperature can be raised to about 45 ° C.].
以下の実施例は、ビニルエステル(実施例1〜8)、イソプロペニルエステル(実施例9)または無水物(実施例10〜12)を使用して本発明のプロセスを例証するものである。 The following examples illustrate the process of the present invention using vinyl esters (Examples 1-8), isopropenyl esters (Example 9) or anhydrides (Examples 10-12).
1つの実施形態において、TBME(0.5mL)中のラパマイシン(20mg、0.022mmol)、ビニルエステル(50μL)およびNOVOZYM 435リパーゼ(20mg)の混合物を、TLCによりモニターしてすべての出発原料が消費されるまで、室温(rt)または45℃、N2下で攪拌した。酵素を濾過して除去し、TBMEで洗浄した。併せた有機溶媒を減圧下で蒸発させた。残留物を、ヘキサン−アセトン(2:1、v/v)で溶離するシリカゲルカラムクロマトグラフィーによって精製するか、ヘキサン−アセトンから再結晶させた。追加の実施例を以下の図式で図示する。 In one embodiment, a mixture of rapamycin (20 mg, 0.022 mmol), vinyl ester (50 μL) and NOVOZYM 435 lipase (20 mg) in TBME (0.5 mL) is monitored by TLC and all starting material is consumed. Stir until room temperature (rt) or 45 ° C. under N 2 . The enzyme was removed by filtration and washed with TBME. The combined organic solvent was evaporated under reduced pressure. The residue was purified by silica gel column chromatography eluting with hexane-acetone (2: 1, v / v) or recrystallized from hexane-acetone. Additional examples are illustrated in the following diagram.
以下のように、本発明に従って、無水物をアシル供与体として使用することによりラパマイシン42−エステル誘導体を調製する。 In accordance with the present invention, the rapamycin 42-ester derivative is prepared by using the anhydride as an acyl donor as follows.
TBME(0.5mL)中のラパマイシン(20mg、0.022mmol)、無水物(30mg)およびNOVOZYM 435リパーゼ(20mg)の混合物を室温で48時間(N2、光から保護)攪拌した。[無水酢酸または無水プロピオン酸の場合、48時間後、別の分のNOVOZYM 435リパーゼ(20mg)およびTBME(0.1mL)を添加し、その混合物をさらに48時間攪拌し、その後、反応を停止させた]。その後、溶媒をN2ガスでのフラッシングにより除去した。残留物を、ヘキサン−アセトン(2:1、v/v)で溶離するシリカゲルカラムクロマトグラフィーによって精製した。生成物を白色の固体として単離した。 A mixture of rapamycin (20 mg, 0.022 mmol), anhydride (30 mg) and NOVOZYM 435 lipase (20 mg) in TBME (0.5 mL) was stirred at room temperature for 48 hours (N 2 , protected from light). [In the case of acetic or propionic anhydride, after 48 hours, another portion of NOVOZYM 435 lipase (20 mg) and TBME (0.1 mL) was added and the mixture was stirred for an additional 48 hours before the reaction was quenched. ] Thereafter, the solvent was removed by flushing with N 2 gas. The residue was purified by silica gel column chromatography eluting with hexane-acetone (2: 1, v / v). The product was isolated as a white solid.
本発明は、本明細書に記載する特定の実施形態によって範囲が制限されることはない。実際、上述の説明および付随する図から、当業者には、本明細書に記載のものに加えて本発明の様々な変形が明らかとなろう。そうした変形は、添付の特許請求の範囲の中に入ると解釈される。 The present invention is not to be limited in scope by the specific embodiments described herein. Indeed, various modifications of the invention in addition to those described herein will become apparent to those skilled in the art from the foregoing description and accompanying drawings. Such modifications are intended to fall within the scope of the appended claims.
さらに、値は近似値であり、説明のために提供していることは、理解されるはずである。 Furthermore, it should be understood that the values are approximate and are provided for illustration purposes.
特許、特許出願、出版物、手順などが本出願のいたるところで引用されているが、これらの開示は、それら全文が、参照により本明細書に組み込まれる。本明細書とここに挙げた文献との間に矛盾が存在し得る程に、本明細書においてその開示の言語は管理されている。 Patents, patent applications, publications, procedures and the like are cited throughout this application, the disclosures of which are hereby incorporated by reference in their entirety. To the extent that there may be a conflict between the present specification and the literature cited herein, the language of the disclosure is controlled herein.
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TWI256395B (en) * | 1999-09-29 | 2006-06-11 | Wyeth Corp | Regioselective synthesis of rapamycin derivatives |
AU2001290841A1 (en) | 2000-09-19 | 2002-04-02 | American Home Products Corporation | Water soluble rapamycin esters |
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JP2007517879A (en) * | 2004-01-08 | 2007-07-05 | ワイス | Direct compressible pharmaceutical composition for oral administration of CCI-779 |
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- 2005-04-12 AU AU2005238431A patent/AU2005238431A1/en not_active Abandoned
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- 2005-04-12 CN CNA2005800112769A patent/CN1942476A/en active Pending
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TW200536542A (en) | 2005-11-16 |
PA8629901A1 (en) | 2006-06-02 |
US7268144B2 (en) | 2007-09-11 |
CL2008000507A1 (en) | 2008-07-04 |
WO2005105811A1 (en) | 2005-11-10 |
AR049019A1 (en) | 2006-06-21 |
BRPI0509852A (en) | 2007-10-23 |
PE20060253A1 (en) | 2006-03-30 |
CR8646A (en) | 2007-08-28 |
NO20065090L (en) | 2006-11-13 |
MXPA06011881A (en) | 2006-12-14 |
AU2005238431A1 (en) | 2005-11-10 |
KR20070015544A (en) | 2007-02-05 |
CA2562952A1 (en) | 2005-11-10 |
EP1737869A1 (en) | 2007-01-03 |
CN1942476A (en) | 2007-04-04 |
IL178315A0 (en) | 2007-02-11 |
JP2007532134A (en) | 2007-11-15 |
ECSP066927A (en) | 2006-12-20 |
UA87492C2 (en) | 2009-07-27 |
SG152234A1 (en) | 2009-05-29 |
US20050234234A1 (en) | 2005-10-20 |
GT200500085A (en) | 2005-11-03 |
RU2387657C2 (en) | 2010-04-27 |
RU2006134014A (en) | 2008-05-20 |
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